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TRANSCRIPT
RECORDER
DAS240
USER’S MANUAL
Edition April 2017 M240004E
Thank you for buying a SEFRAM recorder and for your trust in our company. The main goal of
our various teams (research department, production, commercial, after-sales…) is to meet your
requirements as much as possible by designing or updating high tech products.
Please read cautiously this user’s manual for an optimal use of your recorder.
Our team is available to provide you any additional information:
04-77-59-01-01
Commercial service e-mail: [email protected]
After-sales service e-mail: [email protected]
Technical support e-mail: [email protected]
Fax: +33 (0)4 77 57 23 23
Web: www.sefram.fr
Copyright SEFRAM, 2016. All right reserved.
Any total or partial copy of this document needs the authorization of SEFRAM.
WARRANTY
Your instrument is guaranteed for one year for labor and parts against any manufacturing
defect and/or functioning hazard. This guarantee extends from the delivery date and ends 730
calendar days later.
In case of guarantee contract, this will cancel or replace these guarantee conditions here
above.
The guarantee conditions by SEFRAM are available on the website www.sefram.com. The
general guarantee conditions should prevail on the following conditions that they sum up.
This guarantee does not cover the result of any abnormal use, handling mistake or mistake in
the storage conditions outside the defined range.
In case of application of the guarantee, the user shall return, at its own expenses, the relevant
appliance to our factory:
SEFRAM Instruments & Systems
After-Sales Service
32, Rue Edouard MARTEL
BP 55
42009 SAINT-ETIENNE CEDEX 2
And add a description of the observed breakdown to the appliance.
The standard supplies provided with the appliance (cables, outlets…), the consumables
(batteries …) and the optional supplies (suitcases…) are guaranteed for 3 months against any
manufacturing defect.
Such items as a suitcase, a LCD screen or a touchpad are guaranteed only for a normal use.
The guarantee does not cover wearing, accidental breaks or consecutive to a shock or any
abnormal use.
The factory options integrated to the appliance are guaranteed for the same duration as the
appliance itself.
In case of replacement or repair of the product, the remaining guarantee duration shall be:
- The remaining duration of the guarantee if the appliance is still under guarantee
- If the guarantee duration is less than 90 days, the replaced part is guaranteed for 90 days
Any replacement part becomes the property of the user and the exchanged parts become the
property of SEFRAM.
In case of intervention by an insurance company, the product becomes the property of the
insurance company upon its exclusive request. Else, it shall remain property of the user.
The guarantee covers exclusively the materials manufactured and provided by SEFRAM.
Any intervention by the user or any third party without prior authorization by the company
voids the guarantee.
The user shall be responsible for the return of its appliance to our site. Hence, it shall provide
for a conditioning that shall correctly protect the appliance while shipping. It shall subscribe,
at its own expenses, any insurance required for the transport.
The SEFRAM company reserves the right to refuse any product wrongly conditioned and not
to take in charge any break consecutive to the transport.
Particular case of the battery: There is a Li-ion battery as a standard equipment of this
appliance. It shall not be transported outside the appliance. In no case shall the user replace it.
Its replacement in the factory is necessary to check the charge system and the protective
securities.
What to do in case of malfunction?
In case of malfunction or for any problem of use, please contact the SEFRAM Instruments &
Systems after-sales service.
A technician will take your call in charge and will provide you any required information to
solve your problem.
What to do in case of machine failure?
In case of failure, please contact the SEFRAM Instruments & Systems after-sales service.
Need advice?
Need technical assistance?
SEFRAM Instruments & Systems commits itself to help you by phone for the use of your
appliance.
Please phone: 04-77-59-01-01
Or send an e-mail to: [email protected]
METROLOGY
The metrological conditions of your measurement instrument are defined in the specifications
of this notice. Climate and environmental conditions restrict the specifications of your
recorder. SEFRAM checks the characteristics of each appliance one by one on an automatic
bench during its manufacture. The adjustment and control are guaranteed under conditions of
the ISO9001 certification by facilities in connection with the COFRAC (or equivalent in the
context of ILAC reciprocity).
The specified characteristics are considered stable for a period of 12 months of use, and under
normal conditions of use.
We recommend a check after 12 months and max. 24 months of use, then every 12 months
after 24 months.
For any check of the characteristics, the following average climate conditions shall be
maintained (23°C +3°C – 50(+20) %RH). The recorder should have been working for 0.5
hour before check.
We recommend that you have this control made by our after-sales service (Service Après-
Vente) for the best service and preservation of the measuring quality of your instrument.
When a recorder returns to SEFRAM, maximum service is provided with internal updating
according to the required adjustments and software updates. In case of shift in the
characteristics, your instrument shall be adjusted to recover its original characteristics.
TABLE OF CONTENT
1. IMPORTANT INFORMATION 1.1
1.1. SPECIFIC CAUTIONS ............................................................................................................................................... 1.1 1.2. SAFETY INSTRUCTIONS .......................................................................................................................................... 1.1 1.2.1. Conformity and limits of the appliance ........................................................................................................... 1.2
2. PRESENTATION 2.1
2.1. GENERAL ........................................................................................................................................................... 2.1 2.1.1. Recording period ............................................................................................................................................. 2.2 2.2. DESCRIPTION .................................................................................................................................................... 2.3 2.2.1. Electrical connectors of the main frame .......................................................................................................... 2.3 2.2.2. Extension module: .......................................................................................................................................... 2.4
3. SETUP AND PRECAUTION OF USE 3.1
3.1. SWITCHING ON ...................................................................................................................................................... 3.1 3.1.1. Use of the extension modules: ........................................................................................................................ 3.2 3.1.2. Switching off ................................................................................................................................................... 3.3 3.2. CONNECTION TO THE MEASURING CIRCUIT ............................................................................................................ 3.3 3.2.1. Voltage measurement ...................................................................................................................................... 3.3 3.2.2. Temperature measurement with a thermocouple ............................................................................................ 3.3 3.2.3. Temperature measurement with Pt100/Pt1000 ............................................................................................... 3.4 3.2.4. Resistance measurement ................................................................................................................................. 3.4 3.2.5. Current measurement ...................................................................................................................................... 3.4 3.2.6. Connection of the ground ................................................................................................................................ 3.4 3.2.7. Routine maintenance ....................................................................................................................................... 3.5 3.3. UPDATING THE INTERNAL SOFTWARE ...................................................................................................... 3.5 3.4. EXTERNAL POWER ................................................................................................................................................. 3.5 3.5. BATTERY ............................................................................................................................................................... 3.6 3.6. OFFSET CALIBRATION ............................................................................................................................................ 3.7 3.7. DEFAULT CALIBRATION ......................................................................................................................................... 3.7 3.8. DEMO MODE .......................................................................................................................................................... 3.7
4. USE 4.1
4.1. DESCRIPTION OF THE UPPER BAND ........................................................................................................................ 4.1 4.2. DESCRIPTION OF THE RIGHT BAND ......................................................................................................................... 4.2 4.3. SETUP MENU .......................................................................................................................................................... 4.3 4.4. CHANNELS MENU .................................................................................................................................................. 4.4 4.5. ANALOGIC CHANNELS ........................................................................................................................................... 4.5 4.6. ADDITIONAL FUNCTIONS BETWEEN CHANNELS ..................................................................................................... 4.7 4.7. LOGICAL CHANNELS .............................................................................................................................................. 4.8 4.7.1. Logical functions ............................................................................................................................................ 4.8 4.7.2. Logical channels ............................................................................................................................................. 4.9 4.8. CHANNEL VALIDATION ........................................................................................................................................ 4.10 4.9. NUMERICAL DISPLAY .......................................................................................................................................... 4.11 4.10. XY DISPLAY ....................................................................................................................................................... 4.12 4.11. F(T) KEY .............................................................................................................................................................. 4.13 4.11.1. F(t) Menu keys .............................................................................................................................................. 4.13 4.11.2. Numerical window ........................................................................................................................................ 4.14 4.11.3. Graphical window ......................................................................................................................................... 4.14 4.12. «TRIGGER » MENU .............................................................................................................................................. 4.15 4.13. « MEMORY OUTPUT » KEY .................................................................................................................................. 4.16 4.14. « RECORD » KEY ................................................................................................................................................. 4.17 4.15. SCREEN COPY ...................................................................................................................................................... 4.17
5. TRIGGERS 5.1
5.1. ANALOGIC CHANNEL TRIGGER .............................................................................................................................. 5.2 5.1.1. Single threshold .............................................................................................................................................. 5.2 5.1.2. Multiple thresholds ......................................................................................................................................... 5.3 5.1.3. Trigger on Logic Channels ............................................................................................................................. 5.4
6. MATHEMATICAL CALCULATIONS 6.1
6.1. DEFINITIONS .......................................................................................................................................................... 6.1 6.2. TYPES OF CALCULATIONS ...................................................................................................................................... 6.2
7. DATA ACQUISITION 7.1
7.1. LAUNCH PAGE ....................................................................................................................................................... 7.1 7.2. RECORDING ........................................................................................................................................................... 7.2 7.3. FILE OUTPUT ......................................................................................................................................................... 7.4 7.3.1. F(t) display ...................................................................................................................................................... 7.4 7.3.2. XY display ...................................................................................................................................................... 7.5
8. FILE MANAGEMENT 8.1
8.1. GENERAL ............................................................................................................................................................... 8.1 8.2. SETUP FILE ............................................................................................................................................................ 8.2 8.2.1. Save Setup files ............................................................................................................................................... 8.2 8.2.2. Load setup files ............................................................................................................................................... 8.2 8.3. MANAGEMENT OF THE DATA ACQUISITION FILES .................................................................................................. 8.2 8.3.1. Loading the data acquisition files ................................................................................................................... 8.3 8.3.2. Saving the data acquisitions ............................................................................................................................ 8.3
9. INPUTS/OUTPUTS 9.1
9.1. ADDITIONAL INPUT/OUTPUT CONNECTORS........................................................................................................... 9.1 9.2. LOGIC INPUTS ........................................................................................................................................................ 9.2 9.3. ALARM OUTPUTS ................................................................................................................................................... 9.2 9.4. POWER SUPPLY OUTPUT ........................................................................................................................................ 9.3 9.5. EXTENSION BOX INPUT/OUTPUT INTERFACE .......................................................................................................... 9.4 9.6. EXTENSION WIRE FOR LOGICAL CHANNELS ........................................................................................................... 9.6
10. INTERFACE 10.1
10.1. ETHERNET INTERFACE ......................................................................................................................................... 10.1 10.2. WIFI INTERFACE ................................................................................................................................................. 10.2 10.3. FTP TRANSFER .................................................................................................................................................... 10.3 10.4. MANAGING WITH VNC: ...................................................................................................................................... 10.3 10.4.1. Changing the password ................................................................................................................................. 10.3 10.5. EXTERNAL SOFTWARE VNC VIEWER .................................................................................................................. 10.3 10.6. VIEWING WITH SEFRAMVIEWER.......................................................................................................................... 10.5 10.7. CONTROL YOUR DEVICE WITH DASLAB ............................................................................................................. 10.7
11. TECHNICAL SPECIFICATIONS 11.1
11.1. GENERAL CHARACTERISTICS ............................................................................................................................... 11.1 11.2. TENSION RECORDING ........................................................................................................................................... 11.1 11.3. RECORD OF THE TEMPERATURE OF THERMOCOUPLE ........................................................................................... 11.1 11.4. PT100/PT1000 RECORD ..................................................................................................................................... 11.2 11.5. RESISTANCE PROBE RECORD............................................................................................................................... 11.2 11.6. SAMPLING ........................................................................................................................................................... 11.2 11.7. ADDITIONAL INPUTS / OUTPUTS ........................................................................................................................... 11.3 11.7.1. Logic functions ............................................................................................................................................. 11.3 11.7.2. Logic channels .............................................................................................................................................. 11.3 11.7.3. Alarm outputs ............................................................................................................................................... 11.3 11.7.4. External power supply .................................................................................................................................. 11.3 11.8. TRIGGERS ............................................................................................................................................................ 11.4 11.9. ACQUISITION FILES .............................................................................................................................................. 11.4 11.10. COMMUNICATION INTERFACE ............................................................................................................................. 11.4 11.10.1. Ethernet ......................................................................................................................................................... 11.4 11.10.2. USB connector .............................................................................................................................................. 11.4 11.10.3. Display .......................................................................................................................................................... 11.4 11.11. ENVIRONMENT CONDITIONS ................................................................................................................................ 11.4 11.11.1. Weather conditions ....................................................................................................................................... 11.4 11.11.2. Power supply - battery .................................................................................................................................. 11.5 11.11.3. Dimensions and weight ................................................................................................................................. 11.5 11.12. SECURITY, INSULATION CLASS, INSTALLATION CATEGORY ................................................................................. 11.5 11.13. ACCESSORIES ...................................................................................................................................................... 11.6 11.13.1. Accessories provided with the appliance ...................................................................................................... 11.6 11.13.2. Accessories and options ................................................................................................................................ 11.6
12. APPENDS 12.1
12.1. MEASUREMENT ACCURACY FOR THERMOCOUPLE ............................................................................................... 12.1 12.2. ACCURACY CLASS – CLASS INDEX ....................................................................................................................... 12.4
Page 1.1
1. IMPORTANT INFORMATION
Please read cautiously the following instructions before using your recorder.
1.1. Specific cautions
Do not use the product for any other use than planned.
To prevent any risk of electric shock, never plug of unplug the measurement cords when linked to
the mains.
Never use in a wet environment.
Never use in an explosive atmosphere.
In case of malfunction or for the maintenance of the appliance, only qualified personal shall be
allowed to work on it. In such a case, it is necessary to use SEFRAM spare parts.
Never open the appliance: there is live tension.
Do not alter or defeat the ground connection. Without the safety ground connection, all accessible
conductive parts (including control knobs) may provide an electric shock. Failure to use a properly-
grounded approved outlet and the recommended three-conductor AC line power cable may result in
injury or death.
1.2. Safety instructions For a correct use of the appliance, it is necessary that the users abide by the security
instructions and the instructions of use described in the manual.
Specific warnings are provided all along the manual
If required, there are warning symbols on the appliance
Symbols and definitions
Symbols in this handbook:
Warning: potential danger for the user
Attention: potential danger for the appliance and/or the connected equipment
Page 1.2
Remark: important information.
Symbols on the appliance:
Danger (High voltage): immediate corporal danger
Attention: see the handbook. Risk of damage to the material connected to the
instrument of the instrument itself.
Ground: accessible parts linked to the ground of the appliance.
1.2.1. Conformity and limits of the appliance
The DAS240 recorder is in conformity with IEC 61010-1 (2001-02).
See chapter “Technical specifications”. §11.10
Attention: Never apply a higher voltage than the maximum authorized voltage
between the channels and from the ground of the modules,
Page 2.1
2. PRESENTATION
2.1. GENERAL
The DAS 240 is a programmable recorder that makes it possible to measure and record up to
200 channels, voltages (from 1mV to 100V), currents, temperatures (thermocouple, Pt100,
Pt1000), resistance etc… as well as logical channels.
The dialog between the user and the recorder is made easier thanks to an intuitive interface on
a wide capacitive and color 10’’1 touchscreen.
The measurement parameters are easy to program.
The recording is made directly on an internal 32 GB memory card.
The DAS240 is composed with a main base frame and extension modules of 20 channels
each.
The DAS240 is easy to program via Ethernet/Wi-Fi and uses the NTP, FTP and VNC
protocols for a better use.
The DAS240 can be delivered with an internal battery (ref: 900240500)
Page 2.2
2.1.1. Recording period
The acquisition on each of the valid channels is done every millisecond,
For each channel one can choose an sampling period variable from 1 ms to 100 ms
( for Pt100 and Pt1000 3 wires : the period is variable from 2ms to 200ms.)
This period of integration can eliminate noise for high frequency
example : main noise at 50Hz or engine noise at 1kHz.
For white noise or noise with lower frequency ( lower than recording frequency ) you can
choose a software Butterworth filter
Example :
Recording 9 Channels :
Sampling Period
Ch1 Ch2 Ch3 Ch4 Ch5 Ch6 Ch7 Ch8 Ch9
50ms 50ms 20ms 20ms 20ms 20ms 10ms 5ms 5ms
The total time for an acquisition is 200ms, so the minimum period of recording will be 200ms
Page 2.3
2.2. DESCRIPTION
2.2.1. Electrical connectors of the main frame
1- Battery supply/charger
2- Battery charging LED.
3- ON/OFF switch and switching on indicator.
4- 2 USB connectors for (female) USB stick.
5- RJ45 connector for the Ethernet 10/100 Base interface.
6- SUB-D 25-pin connector for the 16 logical inputs and the alarm output.
7- Ground connection
8- 24 point connector for an access to the external module.
7
1
6 5 2
3
4
8
Page 2.4
2.2.2. Extension module: A module is delivered with the appliance with its 70 cm bounding cable and 20 external
terminal blocks.
Extension cord (70cm)
5.08 mm 3 contact step connectors.
Extension module
Page 3.1
3. SETUP and PRECAUTION of USE
3.1. Switching on
Before switching on the appliance, make sure that the extension modules are connected.
Attention: Never remove or put the extension modules under voltage.
You turn on the recorder by pressing the button at the top of the appliance.
When the appliance is on, the ON/OFF button is lit in blue.
After launching the software, the recorder displays a homepage that specifies the hardware
version, and then switches automatically to the “Direct Display” mode (oscilloscope).
You can display this homepage any time in the main menu by pressing the “additional
option” or “start screen” keys.
At power-up, the appliances start with the latest configuration when they were shut down
(see next paragraph).
If the configuration has changed at power-up, contact the after-sales service.
If the initial setup is wrong:
If the appliance still starts correctly : you can reinitialize the base setup, by entering the
main menu and clicking on the “Default setup ” key.
Otherwise: You can switch on the appliance with the base setup: To do so, press quickly and
many times the “ON/OFF” key at power-up of the appliance until display of the front
page. A setup_error.cnf file will be created in the base folder of the internal SD.
Then contact the after-sales service.
Page 3.2
3.1.1. Use of the extension modules:
You can assemble up to 10 extension modules.
Screw the electrical connectors’ plate delivered in each additional extension.
Assemble the extension modules together.
Then screw the plates with the adjacent modules.
Stick the additional adhesive buttress.
Connect the cable using unlocking levers (1)
Connect the cable on the DAS240 (which must be powered off).
Switch on the appliance.
The appliance is delivered with a 70cm cable.
1
Page 3.3
3.1.2. Switching off To switch off the recorder, press the ON/OFF key (see paragraph 2.2).
The setup will be saved, the current file will be closed and the appliance will be turned off.
If the appliance is not switched off correctly, then press the ON /OFF button for 5 seconds.
In such case, the setup will not be saved.
Appliance without battery :
If the appliance stops without pressing the ON/OFF button (brutal stop of the power supply),
the setup will not be saved.
The appliance setup at next start will be the same as the one of the latest start or of the latest
acquisition.
3.2. Connection to the measuring circuit You will use the terminal blocks provided with the appliance (ref x7004000).
3.2.1. Voltage measurement
The voltage measurement is performed between the + and – terminals of the relevant input.
The “┴” terminal is not used.
3.2.2. Temperature measurement with a thermocouple The voltage resulting from thermocouple effect must be measured between the + and –
terminals of the relevant input.
The “┴”terminal is not used.
Page 3.4
3.2.3. Temperature measurement with Pt100/Pt1000
The Pt100/Pt1000 probe must be connected to the + and – terminals.
The current is injected through the “┴” terminal.
For a 4 wire Pt100/Pt1000, the mounting will be in 3 wires, the 4th wire will not be
connected.
Attention: the “┴” current injection is shared by all the channels.
Wiring:
2 wires 3 wires
3.2.4. Resistance measurement
The resistance must be connected to the + and – terminals. A current injection is performed
in 2 wires.
3.2.5. Current measurement
You can make current measurement by shunt between the + and - terminals of the relevant
input.
You will use either an external resistance or
the SEFRAM shunt (ref 902406500 : 50Ω)
In this case, select the “current” type among the parameters of the relevant channel.
Connect the measurement wires to the shunt terminals.
3.2.6. Connection of the ground
If the source of the signal you have to record has low internal impedance, you shall use
twisted wires. In case of high impedance, you shall use shielded wires.
When gathering grounds from the various items on the measurement line, it is good to
check that there is no voltage difference between them, in order to prevent any shortcut. If
any doubt, make a measurement with a voltmeter on a low resistance (i.e. 1kΩ) between the
terminals.
If any important noise,
o When using the battery , connect the GND connection to the ground(§ 2.2.1 )
o use the sampling period for each channel >20ms (§ 2.1.1 )
o an appropriate capacity can be placed between the ground and the – wire of the
signal.
Page 3.5
3.2.7. Routine maintenance Maintenance only consists in cleaning outside the appliance. Any other operation requires a
qualified personal.
Unplug the appliance before any intervention.
Never let water flow through the appliance to prevent any electrical discharge. Periodically
clean the recorder with the following instructions:
- Use water and soap to clean the front and rear boards.
- Never use any product that contains petrol, benzene or alcohol: they would damage the
screen printings.
- Wipe with a soft lint-free cloth.
- Use some antistatic product to cleanse the screen.
3.3. UPDATING THE INTERNAL SOFTWARE The internal software is updated regularly with the latest evolutions. These updates are
available on our website. http://www.sefram.com/en/software-updates.html
- To update the software, copy the file that will be provided on an USB stick. Place it on
the USB connector on the rear side of the appliance.
- Press the “Setup” key.
- Then press the “Software update” key to enter the update.
- Finally, to run the update, press the “Sofware update” key.
- Then, the internal software automatically copies the necessary files to the new version.
- Turn the appliance off and on after the end of the updating process.
3.4. External power
You can power the appliance using an external continuous voltage source. The appliance
operates with a voltage of 15V (5 A). The charger block provided during the purchase acts
as an external power.
T
o
Attention: minimize shock hazard, the instrument chassis and cabinet
must be connected to an electrical safety ground. This instrument is
grounded through the ground conductor of the supplied, three-conductor
AC line power cable. The power cable must be plugged into an approved
three-conductor electrical outlet.
Attention : When the charger is connected to the appliance, the metallic
frame is linked to the ground of the electrical installation
Page 3.6
3.5. Battery
The appliance s equipped with a lithium-ion battery (Li-ion). It is sent with charged battery.
However, if the appliance has remained unused for more than one month, check its loading
status and reload it if required.
Security advice:
Never heat up or throw the battery pack into fire
Never shunt parts of the battery: risk of explosion!
Do not bore the battery.
Do not dismantle the battery pack.
Do not reverse the polarities of the battery.
This battery pack includes a protective item that shall not be damaged or removed.
Do not store the pack in a place exposed to heat.
Do not damage the protective sheath of the pack.
Do not store the appliance in a vehicle exposed to sunbeams.
The battery should last 200 charge-discharge cycles or 2 years.
Advice to extend the life of the battery:
Do not discharge too much.
Do not store the batteries too long without using them.
Store the battery at around 40% charge.
Do not fully charge or discharge the battery before storage.
When the battery is practically discharged, the appliance closes all open files, stops correctly
the software, then shuts up by itself.
To recharge the battery inside the appliance:
Connect the provided external power supply on the jack plug of the appliance.
Connect the mains.
The internal charger stars loading the battery, the green light of battery charge lights up.
You can charge the appliance when on or off.
When the battery is loaded, the light turns off automatically.
Attention: any intervention on the battery requires dismantling of the
appliance and shall be made by a SEFRAM technician.
Only use batteries provided by SEFRAM.
Page 3.7
3.6. Offset calibration
You can easily calibrate the recorder inputs for the voltage and thermocouple offsets. This
will remove any offset present on different channels.
To do so:
Let the appliance work for 20 minutes (ambient temperature 20-25°C).
Enter the recorder main page and then press the “Setup” key.
Select the “Additional Option” menu.
Select the “Electric Calibration” menu.
Finally, press the “ Calibration offset ” key in order to confirm the calibration, which
will last approximatly 5 minutes.
Restart the appliance.
3.7. Default calibration
You can restore the default factory calibration to correct any possible mistake in the
calibration coefficients:
Enter the “Electric Calibration” page (see the previous paragraph).
By pressing the “Recover factory calibration” key and then by confirming, you will
restore the default factory calibration coefficients and give the date of initial plant start.
3.8. Demo mode
With the “Demo mode”, you can apply a fictitious simulation to the inputs.
To do so, activate the trial mode and restart the appliance: the channels will be emulated and
a sine wave will be applied to all the channels.
Do not forget to remove this mode after test.
Page 3.8
3.9. Keypad lock
You can also lock the recorder completely, no key will be accessible.
Press the “Setup” key.
Press the “Additional Option” key.
Press the “Locking the recorder” key.
Confirm!
The keypad lock will occur 10 seconds after you have pressed the confirmation key.
All the keys of the appliance will be blocked.
The “Main Menu” key will be replaced by a yellow padlock.
To unlock the recorder press twice of three times straight away this padlock.
Page 4.1
4. USE
The recorder is equipped with a capacitive touchscreen. You can use the provided pen or a USB
mouse.
4.1. Description of the upper band
Different areas on the screen:
1- Acquisition status (in progress, stop).
2- Battery status (if present option).
3- Direct access to display.
4- Access to the display of the saved file.
5- Access to the record.
6- Screenshot button.
7- Time and date.
8- Access to the main menu.
1 2 3 4
5 6 7 8
Page 4.2
4.2. Description of the right band
In this band, you directly have the instant value of the inputs, the functions and the logical
channels. You can also access to the pages of the analog and logical channels.
1- Selection of the inputs to be displayed : you can display (by pressing the or keys):
Whether all the channels of a complete extension module as well as the associated
functions, e.g. A1-A20 + FA1-FA4 or B1-20 +FB1-FA4 etc...
Whether a customized bloc (Custom-1) or (Custom-2)
Or the additional channels frequency and meter K1 to K4.
2- Direct access to a particular channel: by pressing the channel, you will display directly its page.
3- Direct access to the functions associated to the modules.
4- Real time display and access to the logical channels pages (if the logical channels are
confirmed).
1
2
3
4
Page 4.3
4.3. Setup menu
General configuration of the appliance, monitoring of the alarm outputs, network address
TCP/IP, calibration of the channels, update of the internal software.
Language: selection of the language of the appliance.
Screen intensity: adjustment of the delay (without or variable 1-30min)
Date modification : adjusting the time and date of the appliance (For NTP, see the Interface
paragraph)
VNC use: (see the Interface paragraph)
Setup administration : (see paragraph 13)
Setup initialization: initialization of the appliance in its typical setup.
Recover on disk: recovery of a setup saved on the internal storage or on USB stick.
Save on a disk: Saving of the setup on the internal storage or on USB stick.
Network : (see the Interface paragraph)
Additional options: Modification of the different parameters
Keypad beep: Activation or not of the keypad beep
Screen luminosity: Decrease of the backlight of the LCD screen.
Locking of the recorder (see paragraph 3.9)
Electric calibration (see paragraph 3.6)
Display of the start screen
Version update : update of the internal software (see paragraph 3.3)
Alarm A ,B,C or D : use of the alarm outputs A-D (output (0-5V)
Without: No condition monitors the contact, which always remains open.
Trip-out: Monitoring by combination of the analog or logical channels, on several
thresholds (see chapter Trip-out).
Page 4.4
4.4. Channels menu By pressing the menu « channels », you access the table of all available analogic and
temperature channels of your recorder.
This table gives you a quick insight of the various adjustments of the channels. You can
change these adjustments directly in this table by pressing the parameter you want to update.
You can display 10 channels maximum.
or keys : to display other channels
You can access the setting of parameters channel by channel by pressing the name of the
channel at the top of the table (A1, A2…) or by pressing on the bargraph of the channel
(right side of the screen).
Page 4.5
4.5. Analogic channels
1- Number of the channel
2- Name of the channel: give a name to the channel (26 characters max.)
3- Type : choose the type of the measurement performed on the input
Voltage,
Current
o Shunt value in current measurement (Automatic sensor 4-20mA): you
choose the shunt resistance.
thermocouple ,
o Choice of the thermocouple ( J,K,T S B E N C L)
o Choice of the cold junction compensation
o Choice of the unit ( Celcius , Fahrenheit, Kelvin)
Resistance
Pt100, Pt1000
o Choice of the number of wires
o and of the resistance
4- Type of external sensor :
Direct access to the menu
Allows presetting the type of this sensor (1-10V or 4-20mA)
5- Filter : numerical filter from 100Hz to 0.1Hz
6- Change the Channel color
7- Change the signal thickness with the « » and « » keys.
1 2 3 4 5 6 7
12
13
14
11
10
9
8
Page 4.6
8- Setting the diameter: the diameter is the measurement extent corresponding with the
total height of the screen, where the channel is traced.
9- Setting the location : location of the zero on the screen from -100 to 100% :
o Max: 100 %: zero is at the top
o Centre :0 % zero is in the center
o Min: -100% zero is at the bottom
For example, in the resistance mode, it is interesting to have the zero at its minimum
value (-100%), then we will have the maximum value corresponding to the diameter.
10- Setting the zero: The zero (or center or offset) is the central value of the measurement.
11- Summary window and viewing of the threshold, of the diameter, of the offset of the zero
12- Validation and setting the thresholds of trigger 1 and 2; the outline of thresholds on the
screen is valid in the f (t) mode: a horizontal line allows viewing the threshold.
Note: A warning message displays when the programmed analogic thresholds are out
of the measuring range.
13- Function: Allows to assign a function of mathematical calculation to the considered
channel.
Without : no function.
Unit change : Transforms the measurements unit made on the channel ; you can
program a couple of point X1, Y1 and X2, Y2 to perform a scaling.
Calculation: available mathematical functions, associated parameters and units.
o aX+b is identical to the change of unit but instead of giving a
couple of points, we give the zero (b) and the slope (a).
o a |X|+b absolue value
o a X2+bX+c square
o a ln(X)+b Neperian logarithm
o a Sqrt (dX+c)+b square root
o aExp(cx)+b natural exponential
o a (1/X)+b opposite.
14- Channel copy : allows to copy the channel settings on one or several channels.
Page 4.7
4.6. Additional functions between channels
Supplementary channels calculation functions allow to make calculations between channels.
Indeed, you can enable up to 4 additional functions per plug-in.
Those functions are not recorded but calculated in real time with the channels. In order to
see them in an acquisition, the X and Y channels must be recorded.
Press the « Functions » key :
A summary page of functions assigned to each plug in. or key : allows to change
the view page and to view other functions.
We can access the functions by pressing on the corresponding key in the right band (§4.2).
Caution : the function appear only if they are valid (see § 4.8).
The following page appears. Then, you just have to perform the calculation you wish to do
by pressing on the formula bar and creating calculation in the following page.
Page 4.8
Example : To calculate a power P=U.I.
We will then have : (ax*by)+ c with:
X = voltage U1= voltage
operator = *
Y= I1 = current
Unit = W
o a = 1
o b = 1
o c = 0
NB : We can choose any valid channels (of all plugs-in).
4.7. Logical channels
4.7.1. Logical functions
4 additional channels K1 to K4 allow to have either the calculation of a frequency or a
meter.
For that :
In the right band (see § 4.2) : scroll until you reach the K1 to K4 logical functions
window.
Or on the « CHANNELS » page (see § 4.4) scroll pages until you reach the K1 to K4
logical functions window.
Characteristics: see §11.7.
Frequency:
You can also choose to display the result in tr/min :
Counter : (see § 11.7)
A key allows to initialize the counter.
Page 4.9
4.7.2. Logical channels
The 12 logical channels might be recorded simultaneously with the analog channels. To set
the logical channels, press on
The « logical channels » menu on the main screen.
or directly press on the section of logical channels present on the left band (you must
however confirm the logical channels on the « channels and function validation »
screen, (see §4.8)
You access the configuration page of the logical channels :
After choosing the logical channel, you have :
The choice of the name of each channels on the screen
The choice of color for each channel on screen.
Moreover, you can access :
Logical validity : validation of the acquisition of logical channels
Number of viewed logical channels (from 1 to 12)
Page 4.10
4.8. Channel validation
You have the possibility to validate or not the channels to record through the different
configuration menus of the recorder.
In order to validate or not the recording of a channel, you have to check (to validate) or
uncheck (not to validate) on the right of the bargraph of the channel.
The number of recorded channels gives the minimum sampling period.
We can also choose the validation of logical channels, of functions between channels and of
logical channels functions.
For each plug-in (group) or for the logical functions group,you choose the channels
to validate or to cancel.
A key allows to validate/cancel all channels of the group, at the same time.
A key allows to validate the functions: the 4 functions associated to the viewed
group appear.
The minimum sampling period appears (see §5.x).
Page 4.11
4.9. Numerical Display
The numerical display is accessible via the main menu by pressing the “Numerical” key.
The numerical page allows to have in real time all channels of the channels groups. (Plugs-
in, personal group etc..)
The or keys : allow to change groups and view other channels.
For each channel, you view:
The name of the channel
The instantaneous value
The minimum and maximum values
The RAZ min/max key allow to reinitialize the min and max meters.
Page 4.12
4.10. XY Display
The XY mode is accessible via the main menu by pressing the XY key.
The XY display mode allows to visualize the validated channels on the screen and in real
time, relative to each other.
One of the channel defines the excursion on the horizontal axis, the other channels give
points on the vertical axis.
1- Screen configuration: Setting the measurement display on screen.
Choice of the mode of graphical visualization :
F(t)
XY
Numerical of measurement (full screen)
Full screen to visualize the reticule on full screen (f(t) mode.
Color to customize the display colors (background, reticule, cursor).
Option graphique
2- Traced : allows to start or stop the outline.
3- Delete : allows to delete the screen.
4- X channel : Choice of the channel on the horizontal axis. (sweep).
5- Full screen: Allows to view on the full screen, press on the reticule to come back to the
normal mode.
6- The or key allow to view or not the numerical window (see §4.11.3).
1
1 2
6
3
4
5
Page 4.13
4.11. F(t) key
Visualization of measurements in real time on the screen.
The oscilloscope is a scrolling mode, you choose time basis speed and you display the
channels in real time.
4.11.1. F(t) Menu keys
Setting the screen : Configuration of measurements display on the screen.
Choice of the mode of graphical visualization : F(t) or XY
Numerical of measurements (full screen)
Display of the mathematical calculations
Display of terminals and terminals type
Number of screen
Color to customize the display colors (background, reticle, cursor).
Channels validation: allows to choose the channels of groups Perso 1 and Perso 2, we
choose then 20 channels maximum among all recorded channels.
The « reinitialize channels » key cancels the group configuration.
Freeze the screen : freezes the graph at the screen to perform measurements through
cursors, calculations, save or print the measurements at screen, in the F(t) mode.
You can access to :
Restart : restart the Sweep
Time cursor : displays vertical cursors (2) to perform measurements on display :
move the cursor by selecting it with your finger or the mouse.
Voltage cursors : displays horizontal cursors (2) to perform amplitude
measurements on display ; for their movement, do as for the time cursors. You can
also change the diameter/zero to dilate and move your measurement in the screen.
Page 4.14
Time basis : Allows to set the time basis per division.
NB : We can have a rectangular visualization : for example, for a speed of 500 ms/div, if
100 channels are validated, the sampling period will be of 100ms, and we will have then 5
points per division and 50 points on the entire screen, hence the rectangular effect.
Full screen : Allows to visualize the graph on the entire screen. (pressing once on the screen
displays the previous screen).
Mathematical calculation: allows to display values of mathematical calculations on screen.
(To access the mathematical calculations, you have to validate them previously in the
“Screen setting” window)
4.11.2. Numerical window
The numerical window allows to visualize in real time the values
of each channel.
1. The or keys : allow to choose the group to view
2. By pressing a specific channel :
o The graph terminals are bound to this channel.
o In real time acquisition, the instant value will show up.
o By visualizing the cursors; then the difference value
between cursors as well as T1 and T2 values
corresponding to cursors T1 and T20 will be displayed.
3. Key: allows to validate/cancel the display of this
window.
4.11.3. Graphical window
The reticle of the graphical window is divided into 10 divisions, the visualization of the total
curves is 10 times the time basis (for 1s/div, we have 10 seconds of graphic).
The number of visualized points is 1000 (100 per division).
The number of screen can be set in the « screen setting » window.
The right terminals are bound to a valid channel: you just have to press on that channel in
the numerical window.
1
1
3
1
2
1
Page 4.15
4.12. «Trigger » menu
Programming the conditions of start and stop of the data acquisition.
Selection of the actions after data acquisition or plotting and validation of data save in real
time.
See the chapter about data acquisition for a more complete description (§ 7).
Page 4.16
4.13. « Memory output » key
Display on screen of the possible data acquisitions into files on the internal memory or an
USB stick
This function includes the same commands as the « Direct view » function.
The « Read file » command allows you to select the file to display. When pressing this key,
the following window shows up:
Read file: selection of the file to view
Write data to file: saving the part of the displayed file into another file.
For big amounts of acquisition data to display, recovering and displaying the dots may
take a long time.
.
The display includes 2 rounds:
A quick round for the display of the acquisition envelope: some dots may not appear
A phase for the display of all dots of the data acquisition: the percentage of loading is
specified at the bottom of the screen
Page 4.17
4.14. « Record » key
This key has various effects according to the way you use it.
Launching the data acquisition into a file and position of the appliance in a stand-by mode,
waiting for the trigger condition Start.
In any case, you can force the triggering and stop without fulfillment of the conditions inside
the recorder by pressing (to force the record) and (to force the stop).
The following shows up on the screen:
current sampling speed
status of data acquisition (waiting for trigger, sampling rate xx%, …)
4.15. Screen copy
You can create a file copying the content of the LCD screen:
You only have to press the key up right of the screen.
A file will be created, either on the USB stick if present, or into the internal memory.
The name of the file will be bmpxxxxx.bmp (incremental name)
In the internal memory, the files are saved into the « FolderBMP » folder.
You can either copy this folder onto an USB stick or erase it.
You can also use a ftp link to recover these files.
Page 5.1
5. TRIGGERS
This chapter describes all possible triggers of the appliance.
They are used by:
- the « setup » menu, with the A and B alarms
- the « triggers » menu, with the start and stop parameters of the recording.
Edge/Level trigger
Edge trigger: you need a change of status
o Example: Channel A1, rising edge, threshold = 0V: triggers only if the signal status
changes from negative to positive
Level trigger: no need to pass the threshold
o Example: Channel A1, high level, threshold = 0V: triggers only if the signal is
positive
Alarms only have level triggers.
Analogic / Logic channels: trigger only from analogic or logic channels
Single / Multiple threshold:
triggering from only one threshold,
complex triggering from several channels and several thresholds; see description below.
Such complex triggering is only possible with analogic channels.
You can setup these triggers thanks to the « trigger » menu in the homepage.
Page 5.2
5.1. Analogic channel trigger
By pressing Start or Stop, you open the setup window for the trigger of the start or stop of
recording.
After selection of the trigger on Analogic Channels, the following line on screen allows you
to set the trigger condition. It depends on the selection of single or multiple threshold.
5.1.1. Single threshold
Single threshold trigger:
Channel: selection of the channel, on which the trigger threshold is applied
Threshold 1 / Threshold 2: selection of the threshold to settle; each channel is tested with
reference with 2 thresholds, i.e. you can program a start condition on the channel A1 and the
threshold 1, and a stop condition on this same channel A1 and the threshold 2
Higher / Lower: trigger when the channel value is more or less than the set threshold
Threshold value: threshold value selected in real value (taking the current unit and scale of
the configuration of the selected channel into account)
Edge: Selection of the active edge of the channel in reference to the threshold
Pre-triggering (only for start): gives the acquisition time before the trigger appears.
Page 5.3
5.1.2. Multiple thresholds
Trigger: Combination of analogic channels
After selection of a trigger on a set of logic channels, the window allows you to set the
trigger under several conditions.
Then, by pressing the various thresholds in front of their respective channels, you open the
threshold parameter window.
One of the thresholds (or): the first achieved condition activates the trigger
All thresholds (and): all conditions must be simultaneously achieved to validate the trigger
A table makes it possible to select all channels and the validity of the channels
Selecting the channel allows the selection of the thresholds
S1 and S2
Value of the thresholds
Rising / Falling edge, or
Low / High value
Page 5.4
5.1.3. Trigger on Logic Channels
After selection of the trigger on Logic Channels, the window allows you to set the trigger
condition.
The 12 logic channels can be used in the trigger word:
either active at status 0 (less than 1.6 volt)
or active at status 1 (more than 4.0 volts)
or non used X
AND / OR: the logic function AND / OR is applied to each channel
Type: edge or level: the trigger is applied on an edge (change of value) or a level
Page 6.1
6. MATHEMATICAL CALCULATIONS
You can apply mathematical calculations on your data acquisitions.
You can access them with the « Direct display » function.
6.1. Definitions
In « Screen setup »: validate « Display Mathematical calculations »
Then, press the « Mathematical calculations » key
Selection of the number of calculations
Channel: selection of the channel where the calculation is made
Function: selection of the calculation function. You can change it by directly pressing the type
you want, which pops up a window with all available calculations.
18 various mathematical formulas are available.
You can display up to 5 simultaneous calculations on screen
Page 6.2
The display is made in windows above the diagrams, where are specified:
the number of the channel (with its color)
the type of calculation
the value of calculation
You can place this window anywhere on the screen (click/slide).
Under « Direct display », calculations are made in real time and the display is updated every
300ms.
The calculation is made on the 1000 points displayed on screen. Hence, the time resolution is 0.1%.
6.2. Types of calculations
Page 6.3
Drawing Math function Calculation Observations
Minimum The lowest negative
tension bottom
Maximum The highest positive
tension peak
Peak to Peak Max – Min
Low The most frequent
value below the
median
High The most frequent
value above the
median
Amplitude High – Low
On positive
oscillation
100
Amplitude
HighMax
On negative
oscillation
100
Amplitude
MinLow
Frequency Period
1 Average frequency
Period N
periodscompleteNofDuration
Average duration of
a complete cycle
calculated on as
many periods as
possible
Rising edge
T1 = 10% Amplitude
T2 = 90% Amplitude
Trise = T2 – T1
T1
T2
Page 6.4
Falling edge
T1 = 90% Amplitude
T2 = 10% Amplitude
Tfall = T2 – T1
Width of
positive
impulsion
Measurement of the time of 1st
positive pulse. It is measured at
50% of amplitude
Width of
negative
impulsion
Measurement of the time of 1st
negative pulse. It is measured at
50% of amplitude
Positive cyclic
ratio period
durationpulsepositive
Negative cyclic
ratio period
durationpulsenegative
Average
N
i
iVN
Aver1
1
N : total number of dots
Calculation on the
whole graphic range
RMS
N
i
iVN
RMS1
21
Calculation on the
whole graphic range
T1
T2
Page 7.1
7. DATA ACQUISITION
In the « Launch » page, you must first program the data acquisition.
7.1. Launch page
Definition of the data acquisition file:
Selection of the folder
Selection of the name (beginning of the file name, the end is an incremental value)
Length of the file (maximum or selection of the number of samples per channel)
Speed:
The minimum speed is conditioned by the number of channels for acquisition. See §2.1.1
Start: Start condition of the data acquisition
Manual: by pressing a key
Trigger: on a channel or a combination of analogic or logic channels (see
§ 5)
Waiting: after a delay or at a specified date and hour
Automatic: immediate; automatic stop when the file is full.
Pre-triggering: definition of the position of the Start trigger in the data
acquisition; this position is specified as a number of samples and time
Stop: Stop condition of the data acquisition
Automatic: when the file is full
Trigger: on a channel or a combination of analogic or logic channels (see § 5)
After acquisition: action after the end of the data acquisition
Possible only if the Start and Stop triggers are not Manual
Page 7.2
Stop: no action
Relaunch: a new file is relaunched waiting for the Start trigger
View of the active channels, of the recording time, of the pre-launch…
A message « Impossible » shows up when the saving possibilities are exceeded:
reduce the sampling speed or the number of channels
7.2. Recording
You launch the data acquisition by pressing the « Record » key.
The recorder will create a file and wait for a trigger. If the trigger is in automatic mode, the
data acquisition starts:
On the upper left of the screen appear:
the name of the file
the current sampling speed
the data acquisition state (waiting for trigger…)
The « START » key forces the trigger and launches the recording.
The « STOP » key stops the pending data acquisition.
When waiting for the trigger, the screen makes it possible to display the channels in real
time (scrolling mode); you can select the scrolling rate.
After launching, you can also visualize the channels by scrolling or DMM mode:
press « Main menu »
F(t) for real time scrolling
Numeric to display channels in DMM mode.
Page 7.3
When changing of menu page, you can return to data acquisition by pressing the "Record"
key.
For longer data acquisition times, you can zoom onto a part of the data or change of
page.
Keys of the « Display » menu:
Total: the complete memory is displayed and update during the acquisition
Partial: only a part of the memory is displayed; the screen is frozen; only the bargraph and the
filling rate allow you to know the status of data acquisition; you have access to the time cursors
and zooms (see the next chapter).
Page 7.4
7.3. File output
You can access the « Replay memory » mode by pressing
Display of the available data acquisitions in files:
7.3.1. F(t) display
1- Read file: selection of the file to display.
2- Screen setup: type of display, diagrams; see § 4.
3- Configure custom pages (in the pages Custom 1 and Custom 2)
4- Full screen
5- Math (if valid)
6- Time cursors (vertical cursors)
Channel value cursors (horizontal cursors)
7- Zoom between cursors: makes it possible to zoom between the positioned cursors
Zoom + and Zoom -: make it possible to zoom or unzoom onto a part of the data acquisition.
8- Total display of the data acquisition
9- Validation of the recorded channels to display
10- Cursor to scroll in the data acquisition.
Up in the window, you have:
the name of the file
the sampling speed
the date of the trigger
the number of dots per total channel
a bargraph showing the filling status of the file.
1
2
7
3
4
5
6
8 9 10
Page 7.5
7.3.2. XY display
1. Selection of the channel for abscissa values X
2. Display of the cursors
3. Selection of the channel where to apply the cursor
4. Zoom between cursors
5. Manual change of the caliber/position of the channel
6. Return to the initial calibers/positions of the channels
7. Position inside the memory.
1
2
3
4
7
8
5
6
Page 8.1
8. FILE MANAGEMENT
8.1. General
For all possible files, the appliance has an internal flash disk available and may accept an
USB stick, which makes it possible:
to save and load the total configuration of the recorder
to save or restore a data acquisition.
The names of the setup files have a « .cnf » extension.
The names of the data acquisition files have a « .rec » extension.
You can create directories and save the files into them.
1- HD / USB stick: read/write into the internal flash disk or an USB stick (if it was connected
at the start of the appliance)
2- Copy of a file to USB: copy the selected file or folder to an USB peripheral
3- Type the name of a new file
4- Create folder: creation of a new folder; you can type its name with the alphanumerical
keyboard displayed on screen
5- Erase: erases the selected folder or file
6- Close the window 7- Selection of the folder window: Allows you to select the folder to work with
8- Selection of the file window: Allows you to select the file to work with
It is highly advisable to work in a folder and not at the root of the flash disk
When erasing a folder, all files in this directory will be erased too.
1
2
3
4
5
6
7
8
Page 8.2
8.2. Setup file
The configuration file management page is linked to the « Setup» key.
Their name bear the "cnf" extension.
These commands are only available when the data acquisition is stopped.
The available commands in the configuration window are:
Reset: sets up the appliance in standard configuration
Load from disk: loads a configuration from a file in the internal flash disk or an USB
stick
Save to disk: saves a configuration into a file in the internal flash disk or an USB stick
8.2.1. Save Setup files
Press « Save to disk »
You can type the name of the file with the alphanumerical keyboard displayed on screen.
Advice: Do not save files to the root of the disk; create directories for a more efficient
management.
8.2.2. Load setup files
Press « Load from disk »
Select the directory and then the file to load, and click « Load ».
Attention: you will lose the pending configuration.
8.3. Management of the data acquisition files
In the main menu, press the « Memory output » key.
Press the first « Read file » key.
Read file: loading of the data acquisition files
Write into file: saving a part of a file into another file
Page 8.3
8.3.1. Loading the data acquisition files
The following window shows up:
When selecting a file - you can only read data acquisition files (suffix .rec), you can:
Copy it onto an external USB stick
Erase it
Read it.
Select the place and name of the file to load and display on screen, then press
« Load configuration » make it possible to load the configuration of the appliance when the
file was created. The pending configuration of the appliance will be deleted.
8.3.2. Saving the data acquisitions
You choose a file name; the part displayed on screen will be saved into this new file. Only
the zoomed part of the older file will be saved into the newer file.
Page 9.1
9. INPUTS/OUTPUTS
9.1. Additional Input/Output Connectors The connector is at the rear (female SUB-D 25pin).
#pin Name of the signals
13 Logic channel 1
25 Logic channel 2
12 Logic channel 3
24 Logic channel 4
11 Logic channel 5
23 Logic channel 6
10 Logic channel 7
22 Logic channel 8
9 Logic channel 9
21 Logic channel 10
8 Logic channel 11
20 Logic channel 12
7 Logic channel 13
19 Logic channel 14
6 Logic channel 15
18 Logic channel 16
5 Ground
17 Ground
4 Ground
16 9-15V 0.2A power
3 Ground
15 Alarme C
2 Alarme D
14 Alarm A
1 Alarm B
The power supply ground is the mechanical ground of the carter of the SUB-D25 connector.
Page 9.2
9.2. Logic inputs
Inputs are according to the following circuit:
Non-connected inputs are 0V potential (level 0).
Number of logic channels: from 1 to 12.
TTL level: 3.3V (protected up to 24V)
To create a rising edge, you only have to place a connection between the power input and
output of the connector.
Similarly, to create a falling edge, you only have to remove this connection.
You can also use an output signal TTL 3.3V.
Plotting and display:
They are displayed at the top or the bottom of the screen according to the selected position.
They are numbered from the right to the left.
Each channel is plotted between two dotted lines that show their limits.
Triggers:
You can use the logic channels to trigger the plotting and the data acquisitions (start and
stop). (AND or OR mode)
See chapter « Trigger ».
9.3. Alarm outputs
Available contacts and outputs on the rear connector A , B C and D.
All outputs are TTL 5V.
When the appliance is powered off, outputs have a 5kΩ impedance
Signal for internal events to the outside toward the recorder (triggers on logic or analogic
channels, status of the printing block…)
See chapter « Use ».
Page 9.3
9.4. Power supply output
There is a power supply output restricted to 0.2A (see figure "connector").
The tension is the one of the 9-12V battery as a function of the charge and 15V is the
charger is connected.
The ground of this power supply is the mechanical ground.
Thus, you can use this output to provide power to a sensor or an electronic circuit in order to
manage the logic inputs.
The power supply may disappear in case of overload (> 0.2A).
In this case, you must turn off the appliance a few minutes before turning it on again.
Page 9.4
9.5. Extension box input/output interface
The extension box input/output interface option (code 984405500) makes it possible to:
Convert an alternating tension (example 230V 50Hz) into a logic signal 1
Easy connection of the inputs of the 16 logic channels
Insulation of the 16 logic inputs (250V=~ between channels, 250V=~ between channels and
ground)
Easy connection of the alarm outputs by a screw terminal
Power supply of an external accessory with 3.3V, 5V or 12V by a screw terminal.
Connection of the logic channels according to the signal tension:
0 to 250V =~
connection 0 - 250V=~ logic channel
red
black
by insulated pin plug between red and black terminals
max. usable tension: 250V continuous or alternating
typical trip threshold (AC or DC): 48V
frequency: 45 to 440Hz
undetected low threshold (AC or DC): 0 to 10V
detected high threshold (AC or DC): 60V to 250V
insulation: 250V=~ between channel and ground
0 to 48V=~
by a screw terminal between the points 1 and 3 of the screw terminal box
max. usable tension: 48V (AC or DC)
frequency: 45 to 440Hz
typical trip threshold (AC or DC): 9V
undetected low threshold (AC or DC): 0 to 2V
detected high threshold (AC or DC): 10V to 48V
insulation: 50V=~ between channel and ground
connection 0 - 48V logic channel
1
2 3
1
1
Page 9.5
0 to 10V=~
by a screw terminal between the points 1 and 2 of the screw terminal box
max. usable tension: 10V continu ou alternatif
frequency: 45 à 440Hz
typical trip threshold (AC or DC): 2.2V
undetected low threshold (AC or DC): 0 to 1V
detected high threshold (AC or DC): 3V to 10V
insulation: 50V=~ between channel and ground
Response time:
To detect the alternating current, the signal of the logic channels is rectified and
filtered.
Typical delay for a rising signal: 10ms
Typical delay for a falling signal: 50ms
Use:
Link the box to the input/output connector of the appliance with the 25-pin connector
provided as an option.
Connect the logic channels to record with respect of the maximum acceptable tensions.
Power supply / Alarms:
DAS1600/800/8460 DAS20/30/40/50 DAS240
1 Ground Ground Ground
2 3.3V 3.3V 3.3V
3 5V 5V 5V
4 12V 12V 12V
5 Ground Ground Ground
6 Alarm A c1 - Alarm C
7 Alarm A c2 - Alarm D
8 Alarm B Alarm A Alarm A
9 Alarm C Alarm B Alarm B
10 Ground Ground Ground
max current 3.3V: 200mA
max current 5V: 200mA
max current 12V: 200mA
Alarm A,B,C,D : logic output 0V / 5V not isolated
connection 0 - 10V logic channel 1
2 3
1
1
Page 9.6
9.6. Extension wire for logical channels
code 902407000
Length: 1,2m
Color Mark #
Black GND 3 Ground
Red 12V 1 12V
White L1-L8 8 Logical channel 1 à 8
Blue L9-L16 8 Logical channel 9 à 16
Yellow AL1-AL4 4 See below
DAS240
Mark
K1 L13 Logical function K1
K2 L14 Logical function K2
K3 L15 Logical function K3
K4 L16 Logical function K4
DAS1600/800/8460 DAS20/30/40/50 DAS240
AL1 Alarm A c1 - Alarm C
AL2 Alarm A c2 - Alarm D
AL3 Alarm B Alarm A Alarm A
AL4 Alarm C Alarm B Alarm B
Page 10.1
10. INTERFACE
10.1. Ethernet Interface
You can use the recorder remotely via its Ethernet interface with the TCP-IP protocol.
Connect the recorder to your network with a straight-through cable onto the 10/100 BASE-T
(RJ45) connector at the rear of the appliance.
You can use the recorder on an Ethernet network 10 Mbit/s or 100Mbit/s.
In case of a network with BNC cable, you must use an external hub to convert the BNC
signal into RJ45 signal (use a straight-through cable).
If your PC has no network, you can also use a crossover cable directly between the PC and
the recorder.
Crossover cable
The recorder uses the TCP/IP protocol to dialog with the PC. Thus, you can give it an IP
address with a subnet mask.
Ask your network administrator an IP address and a corresponding mask, then, when you
have Setup the recorder with the SETUP key, turn off and on the appliance, so that the
changes are taken into account.
If you don’t have any network administrator:
Check that the TCP/IP driver is correctly installed on your appliance.
Case of a PC under Win XP or other:
From Windows Explorer, go to "Work station", "Configuration panel", "network
connection", and then go to the properties of the network card.
Check that the TCP/IP protocol has been installed, then check the IP address and the subnet
mask.
You have to take great care and define an IP address and a subnet mask that are compatible
with the ones of the remote computer.
The port that the recorder uses is Port #23.
Page 10.2
For example, in I mode, you could have:
PC IP=192 135.20.00 mask = 255.255.255.0
Recorder IP=192.135.20.01 mask = 255.255.255.0
Refer to the definition of the classes of IP addresses.
Programmation:
You can create your own software under Visual Basic, Visual C++, etc. by using, for
example, the Winsock.dll driver by Microsoft.
Then, you only have to send the commands as per the following paragraphs to the recorder.
10.2. WIFI interface
Use only the USB stick provided by SEFRAM.
Turn the appliance on with the USB stick on a relevant port.
In the « Setup » menu, press the « Network » key.
Once the Wi-Fi validated, press the « Wi-Fi networks » key.
(if you don’t see your network, press the Ethernet/Wi-Fi keys several times)
When your network appears, select it and validate.
The commands are automatically positioned. You only have to type the password. In case of
connection problem, contact your network administrator.
In the setup page you will get the IP addresses of the Ethernet and Wi-Fi networks.
Page 10.3
10.3. FTP transfer
Transfer your files to your computer to save them or view them with the SeframViewer
software.
Using of the Windows file explorer
Filezilla: freeware (https://filezilla-project.org/)
Using an external browser (Internet Explorer, Mozilla, Opera, Chrome, etc.)
Launch your browser and type the connection address (see § Setup):
« Ftp:// » followed by the IP address of your recorder
Then, press the Entry key of your computer.
You will get direct access to the directories of your recorder, including the data acquisition
files: HD: root directory of the internal drive disk of your appliance.
Once you have selected the folder where you recorded your data acquisitions, you can
rename them, move them, copy them or erase them.
Transfer your files to your computer to use them with the provided SeframViewer software
or FLEXPRO.
You cannot read a file in real time while recording it.
You can use the protocol http for this.
10.4. Managing with VNC:
This piece of software allows you to manage the recorder remotely.
10.4.1. Changing the password
In the « Setup » page, press VNC.
You can then change the password of VNC.
The default password is « sefram ».
10.5. External software VNC Viewer
You are submitted a link to easily download this software:
http://www.realvnc.com/download/viewer/. Select the.exe file.
You only have to follow the instructions on site to install this software properly. At the end
of setup, you will have the possibility to select a version for your VNC viewer (you may
Page 10.4
have to pay for some of them). Select the version you want according to the applications you
need.
Just open the « VNC viewer » file where you recorded it.
On the VNC Server line: you must type the IP address of your recorder and the password
(the default password is « sefram »), then click « Connect »
You will be able to control your recorder from your computer.
Page 10.5
10.6. Viewing with SeframViewer
You can transfer the data acquisition files to a PC computer for viewing.
The SeframViewer software is provided on a CD-ROM with the appliance. You can use it to
view the recorded files or convert it into xls or txt files.
It works under WINDOWS with Framework 2.0.
Transfer of the files from the appliance to the PC computer:
USB peripheral device
with the FTP protocol
Launch the SeframViewer software (or double-click on a file)
Open a data acquisition file (suffix .rec)
You can select:
- the channels to display
- the display mode f(t) or xy
- the self-calibration of the channels.
Your data acquisition file shows up on screen. The functions of SeframViewer are available.
Refer to the instruction manual included in the software to discover all available functions in
SeframViewer by clicking on the last icon « Help ».
You can also directly create a file (.txt or .xls) by launching the command mode of
Windows® with the following line (see the Options sub-menu of the help):
Example:
Page 10.6
C:\Program Files (x86)\SeframViewer\seframviewer.exe myfile.rec /x
will create a .xls file
C:\Program Files (x86)\SeframViewer\seframviewer.exe myfile.rec /t
will create a .txt file
Excel@export will directly launch Excel in the browser.
Page 10.7
10.7. Control your device with DASLaB
The DASLaB software manages configurations of your DAS240 device.
It helps you to :
Open, modify and save your configurations
Manage configurations remotly using network via Ethernet or WiFi
Download your record files using network via Ethernet or WiFi
DASLaB is available on the sefram website :
http://www.sefram.com/en/products/recorders-dataloggers/DAS240-multi-channel-
handheld-recorder.html
According to your needs, click on the right button. If you want manage your DAS240 using
network, please enter the IP address to establish the connection.
For every action, including opening, saving, sending or refreshing configurations, the left
sliding menu makes you able to apply it.
Page 11.1
11. TECHNICAL SPECIFICATIONS
11.1. General characteristics
Number of inputs: 20 per module
max. 20 modules
Impedance: 1 MΩ
max. acceptable tensions:
between the 2 terminals of a channel : +100 V DC
between 2 channels 100 V DC
between a channel and the ground 100 V DC
Installation category: overvoltage category: 100V cat. 1 (see § 11.12)
Type of measurements:
Tension, current (through external shunt),
Thermocouple J, K, T, S, B, N, E, C, L
Pt100, Pt1000, Resistance
11.2. Tension recording
max caliber 200 V (-100 V to +100 V)
min caliber 1 mV (-0.5 mV to +0.5 mV)
accuracy ± 0.1% of full scale ± 10µV
offset drift 100ppm/°C ± 1µV/°C
11.3. Record of the temperature of thermocouple
Sensor Domain of use
J -210°C to 1200 °C
K -250°C to 1370 °C
T -200°C to 400 °C
S -50°C to 1760 °C
B 200°C to 1820 °C
E -250°C to 1000 °C
N -250°C to 1300 °C
C 0°C to 2320 °C
L -200°C to 900 °C
The accuracy of the thermocouples is specified in append.
Compensation of the cold welding: ± 0.5°C
Page 11.2
11.4. Pt100/Pt1000 Record
Current generator:
Pt100: 1mA
Pt1000: 100µA
Domain of use: -200°C to 850°C
2 wires or 3 wires
Correction resistance in 2-wire mode: max. 30Ω
max. resistance in 3-wire mode: 50Ω
Accuracy at 20°C room temperature: ±0.3°C ± 0.1% of the measurement value
11.5. Resistance Probe Record
2 input ranges:
1kΩ:
Current generator: 1mA
Accuracy 1Ω
10kΩ
Current generator: 100µA
Accuracy 10Ω
11.6. Sampling
Polling system (one sample per valid channel)
Resolution: 16 bits
Sampling period per channel 1ms to 100ms (see § 2.1.1)
( 2ms to 200ms if Pt100 / Pt1000 3 wires )
Filters: Butterworth filter order 2 from 10Hz to 0.01Hz
(the frequency of the filter must be max. half the total sampling frequency).
Page 11.3
11.7. Additional inputs / outputs
11.7.1. Logic functions
Logic functions (K1 to K4)
Same characteristics as the logic channels (see the following chapter)
Pulse counter:
o counter from 0 to max. 10000000
o Minimum impulsion : 10µs
Frequency:
o 10Hz to 10kHz
o Accuracy : 0.1 %
PWM :
o Frequency : 100Hz to 2kHz
o Accuracy : 0 .1 %
11.7.2. Logic channels
Number of channels: 12
Input impedance: 4.7kΩ
max. sampling frequency: 1 kHz (1ms)
max. possible tension: 24V category 1
11.7.3. Alarm outputs
4 alarms A, B, C and D
Outputs 0-5V
On trigger (see § 17.7)
On triggering of the data acquisition
11.7.4. External power supply
Nominal tension battery tension (from 9 to 15V)
max. intensity 0.2A restricted resettable fuse
Page 11.4
11.8. Triggers
Date
Delay
Thresholds and combinations (or/and) of thresholds (2 per channel)
Word on logic channel (and, or, edge, level)
11.9. Acquisition files
Size of the internal flash disc min. 32GB
max. file size 2GB
Trigger: see §11.8
Pre-trigger: variable from 0 to 100 ksamples
The max. speed depends on the number of channels for acquisition. see §11.6
11.10. Communication interface
11.10.1. Ethernet
- Speed 10/100 base-T
- Connector RJ45
- DHCP possible
- FTP server
- VNC server
- NTP client
- Remote control:
Protocol TCP/IP
Connection port 23
11.10.2. USB connector
For memory and wi-fi sticks, and mouses
Standard USB 2
Type 2 female connectors type A
11.10.3. Display
Screen TFT 10", color, backlight
Total resolution 1024 x 600 pixels
11.11. Environment conditions
11.11.1. Weather conditions
Working temperature 0°C to 40°C
max. relative humidity 80 % non-condensing
Storage temperature -20°C to 60°C
Page 11.5
11.11.2. Power supply - battery
External power supply: mains block 100/240 VAC,
jack 5.5 mm, hole 2.1 mm
output 15 V 4 A max
Non-removable battery: lithium ion 10.8 V, 6.5 Ah (9 V at end of discharge)
200 cycles charge / discharge
Battery life: with screen saver: 15h
without screen saver: 10h
11.11.3. Dimensions and weight
DAS 240:
Depth 66mm
Width 298mm
Height 175mm
Weight 1,5kg (2kg with battery)
20-channel module:
Depth 196mm
Width 67mm
Height 23mm
Weight 0.2kg
11.12. Security, insulation class, installation category
Security class: handy appliance for use on field
Security conform to IEC61010-1 (2010)
Pollution degree 2
Power supply by 15 V external block code 207195117
Installation category (overvoltage category)
Measurement input category I 100V, overvoltage 500V
Other input/ouput measurement category I (CAT I)
The carter of the appliance is grounded if the mains block is connected to the
recorder
Page 11.6
11.13. Accessories
11.13.1. Accessories provided with the appliance
Battery charger 207195117
1 male 25-pin connector for logic channels 214200250
1 cover for connector 214299014
Extension box (with accessory set) 902401000
11.13.2. Accessories and options
Transportation briefcase 902408000
Internal battery 902405000
Shunt 50Ω 0.01% (0.5W) 902406500
Box for logic channels 984400550
Cord for logic channels 902407000
Cord for 0.7m box 902407500
Extension box (with accessory set) 902401000
Wi-Fi stick 902402000
Rack 902409000
Page 12.1
12. APPENDS
12.1. Measurement accuracy for thermocouple
The thermocouple measurements are treated as tension measurements.
For a given range of temperature measurement, the software calculates the tension caliber
the following way:
* Let « T » the absolute value of the max. measurable value, in °C
* Add 40°C to take the max. cold welding temperature into account
* Search the corresponding tension value U in the table of thermocouples
* Program the caliber with U included in the range.
Example:
You want to program a measurement range between -50 and + 50°C with a J
thermocouple:
Max. absolute value T = 50°C
Add 40°C T + 40 = 90°C
Corresponding U tension according to the tables ThJ U = 4.726 mV
Programmed caliber: 10 mV (measurement range: -5mV to +5mV)
The measurement inaccuracies below are max. values: the typical values are half to thrice as
much.
The temperature measurement accuracy is the sum of several possible uncertainty causes:
Pl: linearization accuracy
Ps: weld welding accuracy
Pm: measurement accuracy of the equivalent tension
The total accuracy Pt is then: Pt = Pl + Ps + Pm
For the recorder:
Pl = + 0.25°C for all thermocouples
Ps = + 0.5°C for all thermocouples
Pm = 0.1% of the tension caliber + 10µV) divided by the slope of the thermocouple
in µV/°C
Page 12.2
Measurement accuracy: Pm
The measurement accuracy Pm depends on the tension caliber of the appliance (see the
previous paragraph) and on the slope of the thermocouple. You shall take the slope at 0°C
while knowing that it will vary as a function of the temperature, but this variation is
generally of the second order for the accuracy calculation.
Tension of thermocouple (mV)
Slope of the thermocouples (µV)
Example :
At 100 °C the slope of thermocouple J is 55µV
At -100 °C slope is 30µV .
So the error is 2 time greater then 100°C to -100°C.
-10
0
10
20
30
40
50
60
70
80
-200 0 200 400 600 800 1000 1200 1400 1600 1800 2000
K
J
T
S
B
E
N
0
10
20
30
40
50
60
70
80
90
-200 0 200 400 600 800 1000 1200 1400 1600 1800 2000
K
J
T
S
B
E
N
Page 12.3
EXAMPLE OF ACCURACY CALCULATION
You make a welding between -50°C and +50°C with a J thermocouple with compensation of
cold welding.
Pt = Pl + Ps + Pm
Pl = + 0.25°C (linearization accuracy)
Ps = + 0.5°C (compensation of cold welding)
Used caliber 10mV (see previous example)
Accuracy for tension measurement 0.1%*10mV + 10µV = 20µV
Slope of J thermocouple 50 µV/°C
Accuracy Pm Pm = 20/50 = 0.4°C
Total accuracy Pt = 0.25 + 0.5 + 0.4 = 1.15°C
Page 12.4
12.2. Accuracy class – class index This is one of the most important concepts of the CEI recommendation; it tends to shorten
the list of specifications. To do so, it introduces the concept of PREDICTIVE CLASS that
depends on the C CLASS INDEX.
The normalized values of the class index are: C = 0.1, 0.25, 0.5 and 1.
The intrinsic error (in the reference conditions) does not exceed + C % (the manufacturer
may also specify this limit of the intrinsic error as an absolute value (ex. + 5 µV) for the first
calibers).
The variations (of the measured value) with the variations of one of the influential variables
in the nominal range of use do not exceed:
- C % for the position for the magnetic induction with external source and parasite
tensions
- 0.5 C% for the power supply source
- 0.3 C% according to the class index at ambient temperature (0.15% for the 0.25 class).
In addition, the insensitivity range should not exceed:
- C% in the reference conditions
- 1,5C% for the maximal resistance of the external measurement circuit
- 2C% for parasite tensions
And the excess should not be more than 2C% (4C% within the limits of the power supply
source).